Intelligent selection of images to create image narratives

ABSTRACT

Images are intelligently selected to create image narratives. Instead of a user having to manually search and locate images to view, the images to associate with a particular image narrative are programmatically determined. Many different types of image narratives may be created. For example, one image narrative may show images that include both a first user and a second user over some period of time. Another image narrative may show images that relate to an activity that a first user enjoys or an event that included the user (e.g., a graduation). The tags and metadata associated with the images of the user are analyzed to determine the tags that are important to the user. For example, the importance might be determined based on the frequency of the tags within the images. After creation, the user may select one of the image narratives to view the associated images.

CROSS-REFERENCE TO RELATED APPLICATION

This application is a continuation of, and claims priority to, U.S.patent application Ser. No. 14/980,775, entitled “INTELLIGENT SELECTIONOF IMAGES TO CREATE IMAGE NARRATIVES,” filed on Dec. 28, 2015, now knownas U.S. Pat. No. 10,242,034, issued on Mar. 26, 2019, the entiredisclosure of which is incorporated herein by reference.

BACKGROUND

Today, users are able to quickly capture, share, and store digitalimages. For example, users may take images of vacations, friends,favorite meals, must-have items, business cards, documents, as well asimages of other types of content. Having a smartphone equipped with acamera readily available allows users to create digital images ofvirtually anything, anytime, and anywhere.

While smartphones have revolutionized the taking of images, in bothcontent and quantity, the way those images are managed and organized hashardly kept pace. Many users have collected thousands or even tens ofthousands of moments and memories, yet these images are typically justsaved to random, disorganized “albums” on their smartphones, on socialmedia or in cloud storage. This scattered and disorganized system hasmade it difficult to find and look back at old images.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram depicting an illustrative operatingenvironment in which image narratives are created using tags andmetadata associated with images;

FIGS. 2A, 2B, 2C, 2D, 2E, 2F, 2G, 2H, 2I, 2J, and 2K are screen diagramsshowing illustrative graphical user interfaces (“GUIs”) that displaydata related to an exemplary image narrative;

FIG. 3 is a flow diagram showing a routine illustrating aspects of amechanism disclosed herein for creating and presenting image narratives;

FIG. 4 is a flow diagram showing a routine illustrating aspects of amechanism disclosed herein for identifying tags of importance or thatare interesting to a user;

FIG. 5 is a flow diagram showing a routine illustrating aspects of amechanism disclosed herein for determining tags and metadata for images;

FIG. 6 is a flow diagram showing a routine illustrating aspects of amechanism disclosed herein for determining a combination of tags toinclude in an image narrative;

FIG. 7 is a system and network diagram that shows one illustrativeoperating environment for the examples disclosed herein that includes aservice provider network;

FIG. 8 is a computing system diagram that illustrates one configurationfor a data center that implements aspects of a service provider network,including some or all of the concepts and technologies disclosed hereinfor intelligently selecting images to create image narratives; and

FIG. 9 is a computer architecture diagram showing one illustrativecomputer hardware architecture for implementing a computing device thatmight be utilized to implement aspects of the various examples presentedherein.

DETAILED DESCRIPTION

The following detailed description is directed to technologies for theintelligent selection of images to create image narratives. As discussedabove, while users can take, acquire, and store a large number ofdigital images, accessing these images at later points in times hasproven difficult. Using technologies described herein, instead of a userhaving to manually search and locate images to view, the user may selectan image narrative that includes images of the user that wereprogrammatically determined to be of interest to the user. As usedherein, “image narrative” may refer to a collection of digital imagesdetermined to be related to each other and of interest to a user.

Many different types of image narratives may be created on behalf of auser. For example, one image narrative may consist of images thatinclude both the user and another user (e.g., a good friend) over someperiod of time (e.g., the previous year). In this example, the imagenarrative might provide the user with data indicating the number ofimages that include the friend that were taken within the last year,locations where the images were taken in the last year (e.g., differentcities), as well as representative images that are associated with thelocations. The image narrative might also provide other information tothe user such as, but not limited to, information identifying otherfriends that are commonly included in the images, information about thevisited locations, and the like. In some configurations, the images ofan image narrative may be presented in narrative form, such as accordingto time (e.g., every month or year) and/or location.

Another image narrative that may be created for a user may show imagesof the user that relate to an activity that the user participates inthat is based on an analysis of the images of the user. For example, theimage narrative may show images taken by the user that are identified asbeing associated with an activity (e.g., hiking) that the userfrequently participates in during some period of time (e.g., the lastyear, the last two years).

Yet another type of image narrative that may be created includes imagesthat are associated with an event that is determined to be significantof and/or of interest to a user. For instance, image narratives may becreated for each significant event that occurred during the last year.These events might include, but are not limited to weddings, birthdays,graduations, ceremonies, parties, holidays, and the like. Other imagenarratives may also be created for a user. In some examples, an imagenarrative may be created based on input received from a user. Forexample, a user may specify one or more keywords (e.g., tags) that maybe used to generate an image narrative. As an example, a user may inputthe name of a person and a location to have an image narrative createdusing images that include the person at the specified location.Generally, the image narratives that are created for a user are based onitems determined to be of interest to the user based on an analysis ofthe images.

According to some configurations, the tags and metadata associated withthe images of the user are programmatically analyzed to determine theimages that are of interest to the user. For example, the interest of aparticular individual, group of individuals, locations, activities,animals, scenery, or the like, might be determined based on thefrequency of the tags identified from the images. In some examples, thetags may be sorted based on the number of occurrences of the tags (e.g.,from most occurring tags to least occurring tags).

The tags that occur the most often (e.g., a particular face, location,activity, scene, animal) may be considered important or of particularinterest to the user. In some instances, the analysis of the tags andthe metadata may identify a combination of tags that are of interest tothe user. For example, the analysis of the tags and metadata may revealthat the user commonly participates in tennis with the same individual(e.g., a friend) and that the user and the friend travel to differentlocations to play tennis.

The items that are of interest to the user might also be identifiedbased on input provided from the user. For example, if the user createsnew tags, or modifies existing tags, these tags may be more determinedto be of more importance or interest to the user as compared to tags theuser does not create or modify. In other configurations, a machinelearning mechanism may be used to determine the tags that are ofinterest to a user.

The images might also be analyzed to determine other information aboutthe user. For example, if the tags indicate a large percentage of theimages are related to outdoor adventure (e.g., mounting climbing,kayaking), the user may be identified as an outdoor adventurer and oneor more image narratives may be created for the outdoor adventures. Asanother example, the tags and metadata may indicate that the user is ananimal lover, likes primarily spending time with family, likesparticipating in a particular activity, or the like. The analysis of theimages might also be used to determine how long a particular individualhas been a friend of the user. For instance, one individual may berecognized in images from the present to five years ago, whereas anotherindividual may be recognized in images from the present to three yearsago.

The analysis of the images may also determine where and how often theuser has traveled, who the user traveled with or visited, and the like.The tags might also be used to identify family and friends that areimportant to the user. For example, the analysis of the images mayidentify the faces of individuals within the images and determine theindividuals that are most often included in the images. The morefrequently an individual is included in the images and the length oftime the user has been included in the images may provide an indicationof a friendship between the user and the individual. As can be seen,many different types of information may be determined from the analysisof the images.

After creation, the user may select one of the image narratives to view.In some examples, the image narratives are represented by user interfaceelements within a graphical user interface (“GUI”). For instance, theGUI might include a user interface element for one image narrative thatincludes images of the user and a friend, another user interface elementfor an image narrative that highlights an activity that the usercommonly participates in, another user interface element for an imagenarrative that includes images of a pet of the user, and the like.

In response to selecting one of the image narratives, the user isprovided with a display of images and information about the images forthe selected image narrative. Additional details regarding the variouscomponents and processes described above relating to the intelligentselection of images to create image narratives will be presented belowwith regard to FIGS. 1-9.

It should be appreciated that the subject matter presented herein may beimplemented as a computer process, a computer-controlled apparatus, acomputing system, or an article of manufacture, such as acomputer-readable storage medium. While the subject matter describedherein is presented in the general context of program modules thatexecute on one or more computing devices, those skilled in the art willrecognize that other implementations may be performed in combinationwith other types of program modules. Generally, program modules includeroutines, programs, components, data structures and other types ofstructures that perform particular tasks or implement particularabstract data types.

Those skilled in the art will also appreciate that aspects of thesubject matter described herein may be practiced on or in conjunctionwith other computer system configurations beyond those described herein,including multiprocessor systems, microprocessor-based or programmableconsumer electronics, minicomputers, mainframe computers, handheldcomputers, personal digital assistants, e-readers, mobile telephonedevices, tablet computing devices, special-purposed hardware devices,network appliances and the like. As mentioned briefly above, theexamples described herein may be practiced in distributed computingenvironments, where tasks may be performed by remote computing devicesthat are linked through a communications network. In a distributedcomputing environment, program modules may be located in both local andremote memory storage devices.

In the following detailed description, references are made to theaccompanying drawings that form a part hereof, and that show, by way ofillustration, specific examples or examples. The drawings herein are notdrawn to scale. Like numerals represent like elements throughout theseveral figures (which may be referred to herein as a “FIG.” or“FIGS.”).

FIG. 1 is a block diagram depicting an illustrative operatingenvironment 100 in which image narratives are created using tags andmetadata associated with images of a user. As illustrated in FIG. 1, theoperating environment 100 includes one or more computing devices 102 incommunication with a service provider network 104.

A user may interact with the service provider network 104 using acomputing device, such as the computing device 102. The computing device102 may be computer, such as a desktop or a mobile computing device(e.g., a tablet or smartphone computing device). In some configurations,the computing device 102 may be connected to a television or some otherdisplay device. For instance, the computing device may be a dongledevice that connects to a port of a television.

In some examples, an application, such as an image software product 106executing on the computing device 102 communicates with the serviceprovider network 104. As used herein, the term “software product” mayrefer to software and/or software services. For example, a softwareproduct may be an application, a machine image, or software as a service(“SaaS”). The software product may be available from an electronicmarketplace and may be executed on a customer computing device and/orwithin a service provider network or some other network.

In other examples, the image software product 106 may be executed withinthe service provider network (not shown) on behalf of the user. Forexample, the software product 106, or some other software product 106,may be executed on computing resources provided by the service providernetwork 104. The user of computing device 102 may be a customer of theservice provider network. As used herein, the terms “customer” and“customers” refer to existing customers of the electronic marketplace108 provided by the electronic marketplace environment 106 and/or theservice provider network 104 as well as visitors (i.e. potentialcustomers) to the electronic marketplace 108 and/or the service providernetwork 104.

As described in more detail below, the service provider network 104 mayinclude a collection of rapidly provisioned and, potentially, releasedcomputing resources hosted in connection with the electronic marketplaceor a third party provider. The computing resources may include a numberof computing, networking and storage devices in communication with oneanother. In some examples, the computing resources may correspond tophysical computing devices. In other examples, the computing resourcesmay correspond to virtual machine instances implemented by one or morephysical computing devices. In still other examples, computing resourcesmay correspond to both virtual machine instances and physical computingdevices.

As illustrated, the service provider network 104 includes an imageservice 116, an image analysis service 120, and a data store 122A. Whilethe image service 116, the image analysis service 120, and the datastore 122A are illustrated within the service provider network 104, oneor more of these services and data store may be located in otherlocations. For example, some or all of the functionality of the imageservice 116 and/or the image analysis service 120 may be performed onthe computing device 102 and/or on some other computing device.

According to some configurations, the image analysis service 120analyzes the images 112 that are associated with a particular user. Forexample, the images 112 may be digital images that were taken by theuser and/or shared with the user. In some examples, the images 112 for auser may be obtained in other ways. For example, from some other imagesource. In other configurations, the analysis of the images 112 may beperformed on some other computing device, such as the computing device102. The images 112 of a user may be stored on the data store 122B onthe computing device 112, the data store 122A within the serviceprovider network 104, and/or on some other image data source 112. Forexample, the other image source 124 may be a social media service (e.g.,the FACEBOOK social media service) or some other data store (e.g., theDROPBOX file storage service). In some examples, the images 112 may beobtained from video of the user (e.g., taken by a smartphone or cameraof the user).

A digital image, such as one of the images 112, often includes anassociated set of metadata (meaning data about the image). For example,a digital image 112 may include, but is not limited to the followingmetadata: title; subject; authors; date acquired; copyright; creationtime—time and date when the image is taken; focal length (e.g., 4 mm);35 mm focal length (e.g., 33); dimensions of the image; horizontalresolution; vertical resolution; bit depth (e.g., 24); colorrepresentation (e.g., sRGB); camera model (e.g., iPhone 6); F-stop;exposure time; ISO speed; brightness; size (e.g., 2.08 MB); GPS (GlobalPositioning System) latitude (e.g., 42; 8; 3.00000000000426); GPSlongitude (e.g., 87; 54; 8.999999999912); and GPS altitude (e.g.,198.36673773987206). The GPS latitude, longitude and altitude may alsobe referred to as a “GeoTag” that identifies the geographical location(or geolocation for short) of the camera that took the picture andusually the objects within the image when the image is taken. An imageor video with a GeoTag is said to be “geotagged.” In a differentimplementation, the GeoTag is one of the tags embedded in the image bythe image analysis service 120 and/or some other component or computingdevice.

The images 112 can also include one or more tags embedded in the image,or possibly stored separately from the image, as metadata. The tagsdescribe and indicate the characteristics of the image. For example, a“family” tag indicates that the image is a family image, a “wedding” tagindicates that the image is a wedding image, a “subset” tag indicatesthat the image is a sunset scene image, a “Santa Monica beach” tagindicates that the image is a taken at Santa Monica beach, etc. In someexamples, each recognized item within the image may include a tag. Theremay be thousands of different tags. In some cases, a user may modifyand/or create tags. For example, user tags may be used to identifyrecognized individuals in the images 112, other tags may identifyparticular animals in the images 112, other tags may identify objectswithin the images (e.g., cars, buildings, tables, chairs).

In some examples, the image analysis service 120 may be configured togenerate the tags from the images. For example, the image analysisservice 120 may extracts or retrieves the metadata and tags from all ora portion of the images. For example, a piece of software program codewritten in a computer programming language (e.g., C#) can be used toread the metadata and tags from the images. In some examples, the imageanalysis service 120 may change the tags. For example, both “dusk” and“twilight” tags are changed to “sunset.” As also discussed herein, theimage analysis service 120 may generate additional tags for all or aportion of the images. For example, a location tag may be generated fromthe GeoTag in an image. In some examples, the image analysis service 120sends the GPS coordinates within the GeoTag to a map service serverrequesting for a location corresponding to the GPS coordinates. Forexample, the location may be identified as “Santa Monica Beach” or“O'Hare Airport.” The name of the location is then regarded as alocation tag for the image.

According to some configurations, the image analysis service 120generates tags based on results of scene understanding and/or facialrecognition that are performed on each image 112. For example, the imageanalysis service 120 may determine the scene type (such as beach,sunset, etc.) for each image 112 that is analyzed. The scene typedetermined by the image analysis service 120 may then be used as anadditional tag (i.e., a scene tag) for the image 112.

In some examples, the image creation time determined from the metadataassociated with the image 112 may be used to assist scene understanding.For example, when the scene type is determined to be “beach” and thecreation time is 6:00 PM for an image, both beach and sunset beach maybe tags for the scene types of the image 112. As an additional example,a dusk scene image and a sunset scene image of a same location orstructure may appear to be similar. In such a case, the image creationtime helps to determine the scene type, i.e., a dusk scene or a sunsetscene.

The date of the creation time and geolocation of the image may also beconsidered in determining the scene type. For example, the sundisappears out of sight from the sky at different times in differentseasons of the year. Moreover, sunset times are different for differentlocations. Geolocation can further assist in scene understanding inother ways. For example, an image 112 of a big lake and an image 112 ofa sea may look very similar. In such a case, the geolocations of theimages may be used to distinguish a lake image from an ocean image.

The image analysis service 120 may also perform facial recognition torecognize faces and determine facial expressions of individuals withinthe images 112. In some examples, different facial images (such assmile, angry, etc.) are identified and used to create one or moreemotion tags for the individual within the image. The image analysisservice 120 may add one or more emotion tags (e.g., happy, sad, crying,laughing, smiling, frowning) to each image. For example, when a personin an image is determined to be smiling, the image analysis service 120adds a “smile” tag to the image. The “smile” tag is a facial expressionor emotion type tag.

The image analysis service 120 may also generate an event tag forspecial days and/or events. For example, when the creation time of theimage is on a recognized holiday (e.g., July 4th or December 25^(th)), a“July 4th” tag or a “Christmas” tag may be generated by the imageanalysis service 120. The creation time might also be used to identify aspecial event for the user. For example, the event might be a birthday,a wedding, a graduation, or the like. In some configurations, the imageanalysis service 120 may access calendar data for the user (or otherusers recognized within the image 112) to determine whether that day isassociated with an event identified by the user. In other examples, theimage analysis service 120 may analyze the image 112 and determine thatthe image is associated with a particular event. For instance, the imageanalysis service 120 may recognize graduation hats and robes in theimages 112 and determine that the image relates to a graduation. In thisexample, the image analysis service 120 may generate a “graduation”event tag. In addition, the image analysis service 120 may use anycombination of geolocation, a particular date, and image analysis todetermine a particular event and tag the image accordingly. For example,if the image analysis service 120 determines using the geolocation datathat an image was taken in Woodstock, N.Y., it may then also look atwhen the image was taken. The image analysis service 120 may thendetermine, for example by using a provided calendar or networkaccessible resources (e.g., the Internet), that a music concert eventwas happening in Woodstock, N.Y. when and where the image was taken.Furthermore, the image analysis service 120 may use image analysis toalso determine indicators associated with a concert, for example largecrowds of people, stages, or musical instruments. Any combination ofthese may then be used to associate that image with an event tag, suchas “Woodstock Music Concert.”

According to some examples, the image analysis service 120 may associatea confidence level or rating for the generated tags. A confidence levelfor a tag may indicate how likely a particular tag identifies acharacteristic within an image. For example, a “tennis racquet” tag thathas an associated confidence level of 0.7 (out of 1) for an objectwithin an image is more likely to be a tennis racket as compared to atennis racquet tag that has a confidence level of 0.5 for an object inanother image, or possibly the same image. In some configurations, a tagadded or edited by a user can be associated with a high confidence level(e.g., 1 out of 1) by the image analysis service 120.

In other configurations, the image analysis service 120 may receive tagsentered and/or modified by a user. For example, the image analysisservice 120 may provide a web page interface, such as user interface 136that allows a user to tag an image by entering new tags and/or modifyexisting tags of the images 112. The tags associated with an image 112may be stored within a data store, such as data store 122A and/or 122B.In other examples, the tags might be stored as part of the image filefor the images 112.

According to some examples, the image analysis service 120 within theservice provider network 104 may not have access to the images 112 of auser. For instance, the images 112 may be stored on the computing device102. In this case, the image software product 106 might provide imagedata 114 to the image analysis service 120. The image data 114 mightinclude metadata and tags for the images. In other cases, the image data114 might be thumbnails for the images 112 that may be analyzed by theimage analysis service 120. In yet other examples, the image data 114might include other information about the images 112. In someconfigurations, the image analysis service 120 may maintain a uniqueidentifier for each image that may be used to locate the metadata andtags of the corresponding image within the data store 122B, or someother location.

In some examples, the image analysis service 120 indexes the imagesusing the generated tags and/or metadata. Furthermore, the images 112may be categorized by scene types, such as a beach resort or a river. Insome examples, the image analysis service 120 accesses social networkingweb page(s) of a user and analyzes the images 112 of the user that areincluded within the web page(s). In some examples, the data specifyinghow the images 112 are categorized may be stored as image narrative data118B within the data store 122A or the data store 122B.

After the tags and/or metadata have been generated for the images 112,the image service 116 and/or the image analysis service 120 may generateimage narratives, such as image narrative 108 for use by a user. Animage narrative 108 may allow a user to view images 112 that theynormally would not have located on their own. Instead of a user havingto manually search and locate images to view, the user may select animage narrative 108 generated by the image service 116 that includesimages of the user that were programmatically determined to be ofinterest to the user. In some configurations, the data specifying thecreated image narratives 108 may be stored as image narrative data 118Bwithin the data store 122A, the data store 122B or some other datastore.

According to some configurations, after the image analysis service 120,or some other computing device or service has generated and/or obtainedthe tags and metadata 118A associated with the images of the user, thetags and metadata 118A for the images 112 are analyzed to determine thetags that are of interest to the user. For example, the interests of aparticular individual, group of individuals, locations, activities,animals, scenery, or the like, might be determined based on the analysisof the tags identified from the images. In some configurations, theimage analysis service 120 and/or the image manager 130 may store, orindex, the tags based on the number of occurrences of the tags (e.g.,from most occurring tags to least occurring tags), the confidence levelof the tags, a time frame associated with the tags, events, activities,or the like.

In some examples, the image analysis service 120 identifies the tagsthat occur the most often (e.g., a particular face, location, activity,scene, animal) and designates these tags to be of importance or ofparticular interest to the user. In some instances, the image analysisservice 120 may identify a combination of tags that are of interest tothe user. For example, the analysis of the tags and metadata 118A by theimage analysis service 120 may reveal that some of the analyzed imagesinclude a common activity and common individuals. The image analysisservice 120 can also identify images 112 that are interest to a userwithin some period of time. For example, the image analysis service 120may identify a “new” friend based on an identification that the newfriend is identified in recent pictures (e.g., the last few months) butis not tagged in older images. The time period may also relate to sometime near an event or activity that is of interest to a user. Forexample, the image analysis service 120 may identify the images taken afew hours before a baseball game to a few hours after a baseball game(or longer or shorter) and analyze those images for individuals that areincluded within the images. As another example, the image analysisservice 120 may identify the images taken by a user while traveling. Thetravel period can be identified by the image analysis service 120 basedon a location associated with the images and/or some other source. Forinstance, the image analysis service 120 may access a calendar, a tripapplication, or some other data source (when authorized) to identify aduration of an event or some other activity.

In yet other examples, the image analysis service 120 may obtain inputfrom a user to determine the tags of interest to the user. For example,the image manager 130 may receive one or more keywords, or some othertype of user selection, that indicate a subject of an image narrative.As an example, a user may specify for the image manager 130 to generatean image narrative that includes images related to one or more keywordssupplied by the user. According to some configurations, the userprovides the image manager 130, via the image software product 106, tagsto include within the generated image narrative. After receiving theselection of the tags, the image manager 130 may identify the images 112including the tags, and generate an image narrative as described in moredetail below. Generally, the image manager 130 may identifyrepresentative images from the images 112 that include the tags providedby the user, and associate the identified images with the imagenarrative.

In some configurations, the image manager 130 and/or the image analysisservice 120 weights tags that are generated and/or modified by the usermore heavily as compared to other tags that were not modified by theuser when determining the importance of tags for a user. For example, ifthe user creates new tags as described above, or modifies existing tags,these tags may be determined to be of more importance or interest to theuser as compared to tags the user does not create or modify. In otherconfigurations, a machine learning mechanism may be used to determinethe tags that are of interest to a user.

The tags and/or metadata associated with the images 112 might also beanalyzed by the image analysis service 120, the image service 116, orsome other component or device to determine information about the user.For example, if the tags indicate a large percentage of the images arerelated to outdoor adventure (e.g., mounting climbing, kayaking), theuser may be identified as an outdoor adventurer and one or more imagenarratives may be created for the outdoor adventures. The tags of imagesthat are associated with an activity or event may be analyzed by theimage analysis service 120 to identify the friends that participate inthe activity or event with the user. For example, the image analysisservice 120 can identify that one friend participates in tennis with theuser but is not included in other images of the user based on ananalysis of the tags for the images that include the activity tag.

As another example, the tags and metadata 118A may indicate that theuser is an animal lover, likes primarily spending time with family,likes participating in a particular activity, or the like. The analysisof the images might also be used to determine how long a particularindividual has been a friend of the user. For instance, one individualmay be recognized in images from the present to five years ago, whereasanother individual may be recognized in images from the present to threeyears ago.

The image analysis service 120 and/or the image service 116 can analyzethe tags and metadata 118A to determine information such as the locationwhere a user traveled, how often the user has traveled, who the usertraveled with or visited, and the like. The tags can be analyzed by theimage analysis service 120 to determine the family and friends that areimportant to the user. For example, the analysis may identify the facesof individuals within the images and determine the individuals that aremost often included in the images. The more frequently an individual isincluded in the images and the length of time the user has been includedin the images may provide an indication of a friendship between the userand the individual. As discussed above, the frequency of an occurrenceof tags within a particular time period may also be used by the imageanalysis service 120 and/or the image service 116 to identify friends orindividuals that may have been involved with the user for some period oftime, but no longer are, or are new friends.

Based on the analysis of the tags and metadata 118A for the images 112,the image manager 130 may create one or more image narratives 108. Asdiscussed above, many different types of image narratives 108 may becreated for a user. Another image narrative may be related to anactivity enjoyed by the user. Other image narratives may include imagesfor events in which the user participated. For instance, imagenarratives may be created for each significant event that occurredduring the last year. These events might include, but are not limited toweddings, birthdays, graduations, ceremonies, parties, holidays, and thelike. Other image narratives may also be created for a user. Generally,the image narratives that are created for a user are based on itemsdetermined to be of interest to the user.

As an example, one image narrative 108 that may be created by the imagemanager 130 may include images of the user and a friend. In thisexample, the image manager 130 may associate the images 112 that includeboth the user and the friend. In some cases, the image manager 130 mayidentify the individual that most frequently occurs in the images 112along with the user. In some examples, the image manager 130 mayassociated the images 112 that include both the user and the friendwithin some time period (e.g., the last six months, the last year, thetime around some event or activity). According to some configurations,the image manager 130 may use a scoring mechanism to identify images toinclude within a particular narrative. For example, the image manager130 may weight tags of friends that are more frequently occurring withinrecent images of the user higher than tags of friends that may be morefrequently occurring over some other period of time. Similarly, tags ofitems that frequently occur that are associated with an event oractivity may be weighted more heavily when creating an image narrativefor the event or activity as compared to images that include those tagsbut are not associated with the event or activity. In some examples, theimage manager 130 can weight tags based on the confidence level of thetags. For instance, the image manager 130 may weight tags that have aconfidence level above some threshold (e.g. higher than 50%) a sameweight and weight tags below the threshold at some other value (e.g. asliding weight or possibly not even consider). After identifying thefriend, or friends to include within this particular type of imagenarrative 108, the image manager associates the image 112 with the imagenarrative. For instance, the image manager 130 may store references toeach of the images 112 that include a user tag for the user and a usertag for the friend.

According to some configurations, the image manager 130 generatesinformation related to the image narratives 108. For example, the imagemanager 130 may determine and associate within a particular imagenarrative, information such as, but not limited to how informationindicating the number images that have been taken that include a subjectof the particular image narrative (e.g., a friend, an activity, anevent), indicating the friends that are commonly included in the imagesassociated with the image narrative 108, information about the visitedlocations, and the like. In some examples, the image narrative 108 usesthe image metadata to determine the locations as well as otherinformation. In some configurations, the images of an image narrative108 may be arranged by the image manager 130 in narrative form, such asaccording to time (e.g., every month or year) and/or location. The imagemanager 130 may determine the time of a photo based on the creation timeof the image and/or other metadata (e.g., when a particular image wasposted on a social media site).

After creation of the image narratives 108 by the image manager 130, orsome other component or device, the image manager may generate a GUIthat includes user interface (“UI”) elements to represent the availableimage narratives 108 to view. For instance, the GUI might include a userinterface element for an image narrative between the user and anotheruser, another user interface element for an activity that the usercommonly participates in, another user interface element for an imagenarrative that is related to a pet of the user, and the like. In someexamples, the image manager 130 provides the GUI for presentation in theuser interface 136. In other examples, the image software product 106may generate the GUI for presentation on a display, such as a display ofthe computing device 102.

After presentation of the GUI, the user may select one of the imagenarratives. In response to the selection, the image software product 106and/or the image service 116 may display the selected image narrative108 to the user. In some configurations, the GUI may be used by the userto select tags to be used to generate an image narrative. In someexamples, the images 112 associated with the selected image narrative108 are obtained from the data store 122B that is located on thecomputing device 102. In other examples, the images 112 associated withthe image narrative 108 might be obtained from some other location, suchas the data store 122A that is located within the service providernetwork 104. In some examples, the image narrative 108 may include ageographical map indicating the geographic location where the imageswhere taken. For example, the map may show that some images where takenon Sunset Beach, Calif., and other images were taken at a hotel in PalmSprings, Calif. Exemplary GUIs that illustrates the display of an imagenarrative 108 is shown in FIGS. 2A-2 k.

For more details on generating tags and analyzing images, seeapplications, including U.S. patent application Ser. No. 14/074,575,entitled “SYSTEM AND METHOD FOR AUTOMATICALLY GENERATING ALBUMS” filedNov. 7, 2013, U.S. patent application Ser. No. 14/074,594, entitled“SYSTEM, METHOD AND APPARATUS FOR SCENE RECOGNITION” filed Nov. 7, 2013,U.S. patent application Ser. No. 14/074,615, entitled “SYSTEM, METHODAND APPARATUS FOR FACIAL RECOGNITION” filed Nov. 7, 2013, U.S. patentapplication Ser. No. 14/316,905, entitled “SYSTEM, METHOD AND APPARATUSFOR ORGANIZING PHOTOGRAPHS STORED ON A MOBILE COMPUTING DEVICE” filedJun. 27, 2015, U.S. patent application Ser. No. 14/747,232, entitled“SYSTEM, METHOD AND APPARATUS FOR IMAGE SCENE RECOGNITION” filed Jun.23, 2015, each of which is hereby incorporated by reference in itsentirety, entitled “SYSTEM, METHOD AND APPARATUS FOR PERFORMING FACIALRECOGNITION” filed Jun. 24, 2015, PCT Number PCT/US15/36637, entitled“SYSTEM, METHOD AND APPARATUS FOR ORGANIZING PHOTOGRAPHS STORED ON AMOBILE COMPUTING DEVICE” filed Jun. 19, 2015, U.S. patent applicationSer. No. 61/724,628, entitled “SYSTEM, METHOD AND APPARATUS FOR SCENERECOGNITION,” filed Nov. 9, 2012, U.S. patent application Ser. No.61/837,210, entitled “SYSTEM, METHOD AND APPARATUS FOR FACIALRECOGNITION,” filed Jun. 20, 2013, U.S. patent application Ser. No.61/724,628, entitled “SYSTEM, METHOD AND APPARATUS FOR SCENERECOGNITION,” filed Nov. 9, 2012, U.S. patent application Ser. No.61/837,210, entitled “SYSTEM, METHOD AND APPARATUS FOR FACIALRECOGNITION,” filed Jun. 20, 2013, each of which is hereby incorporatedby reference in its entirety, which are commonly owned by AMAZONTECHNOLOGIES, INC.

Turning now to FIGS. 2A-2K, examples of graphical user interfaces(“GUIs”) are illustrated that display data related to image narratives.The GUIs 200 that are presented are for illustrative purposes only, andare not intended to be limiting.

As illustrated, FIG. 2A is a screen diagram showing an illustrative GUI200A that displays user interface elements that represent imagenarratives that a user may select to view. The GUI 200A may be generatedby the image software product 106, the image service 116, shown in FIG.1, or some other component or computing device, and presented on acomputing device, such as the computing device 102 by an application,such as a Web browser, or the image software product 106.

As illustrated, the GUI 200A includes user interface elements 202A-202Kthat may be selected by a user to view an image narrative 108 about thesubject. The GUI 200 also includes a text element 204A that providesinstructions to the user to select one of the UI elements in order toview an image narrative 108. In the current example, the GUI 200Aincludes circular UI elements that represent an image narrative 108 thatrelate to different tags identified from an analysis of the images 112of the user.

In the current example, the size of the circle provides an indication tothe user as how many images 112 are related to the title shown withinthe circle UI element. For example, the majority of images of the user(as determined from the circle sizes) were taken in San Francisco,Calif., in 2014, and include the user (the “ME” circle UI element). Theother tags that were popular (e.g., as determined by a frequency ofoccurrence), where images 112 were taken in 2009 and 2105, images thatwere taken in Hawaii, images 112 that include a friend (e.g., a bestfriend), images 112 that include a cat, images that depict an activity(“Hiking”), and images 112 that were taken in Shanghai.

According to some configurations, when a user selects one of the UIelements 202A-202K, an image narrative is accessed and presented to theuser. For purposes of illustration, assume that the user selects thefriend UI element 202E. In response to selection of the UI element 202E,the GUI 200B is presented to the user.

FIG. 2B is a screen diagram showing an illustrative GUI 200B thatdisplays an initial title screen representing an image narrative for theuser and the friend. The GUI 200B may be generated by the image softwareproduct 106, the image service 116, shown in FIG. 1, or some othercomponent or computing device, and presented on a computing device, suchas the computing device 102 by an application, such as a Web browser, orthe image software product 106.

As illustrated, the GUI 200B includes navigation UI elements 206A-206Bthat may be used to navigate between the different displays of the imagenarrative 108. The GUI 200B also includes a text element 204B thatprovides the current page number and total pages of an image narrative108. In the current example, the GUI 200B provides the user with thetitle, “The Journey of Me and Friend”, of the image narrative 108.

According to some configurations, when the user selects the navigationUI element 206B, the next screen of the image narrative 108 is accessedand presented to the user. In response to selection of the navigation UIelement 206B, the GUI 200C is presented to the user.

FIG. 2C is a screen diagram showing an illustrative GUI 200C thatdisplays a first image that is representative of the image narrative108. The GUI 200C may be generated by the image software product 106,the image service 116, shown in FIG. 1, or some other component orcomputing device, and presented on a computing device, such as thecomputing device 102 by an application, such as a Web browser, or theimage software product 106.

As illustrated, the GUI 200C includes navigation UI elements 206A-206Bthat may be used to navigate between the different displays of the imagenarrative 108. The GUI 200C also includes a text element 204B thatprovides the current page number and total pages of the image narrative108. In the current example, the GUI 200C displays a representativeimage 208A that includes the user and the friend. The representativeimage 208A may be selected by the image manager 130, the image service116, or the image analysis service 120.

In some examples, an image 112 that includes a prominent display (e.g.,the focal points of the image) of the user and the friend is selectedfor display within the GUI 200C by the image manager 130. The GUI 200Calso includes text element 204C that provides the user with informationrelated to the image narrative 108. In the current example, theinformation provides the user with the number of days “1020” since thefirst photo with the friend was taken (based on the analyzed images112).

According to some configurations, when the user selects the navigationUI element 206B, the next screen of the image narrative 108 is accessedand presented to the user. In response to selection of the navigation UIelement 206B, the GUI 200D is presented to the user.

FIG. 2D is a screen diagram showing an illustrative GUI 200D thatdisplays a first image that is representative of the image narrative108. The GUI 200D may be generated by the image software product 106,the image service 116, shown in FIG. 1, or some other component orcomputing device, and presented on a computing device, such as thecomputing device 102 by an application, such as a Web browser, or theimage software product 106.

As illustrated, the GUI 200D includes navigation UI elements 206A-206Bthat may be used to navigate between the different displays of the imagenarrative 108. The GUI 200D also includes a text element 204B thatprovides the current page number and total pages of the image narrative108.

In the current example, the GUI 200D displays the first photo 208B. Thefirst photo 208B may be determined to be the first image 112 taken thatis associated with the image narrative 108 and that includes the userand the friend by the image manager 130, the image service 116, theimage analysis service 120. The GUI 200D also includes text element 204Dthat provides the user with information related to first photo 208B. Inthe current example, the information informs the user that the firstphoto was taken on Jun. 20, 2013 in Fisherman's Wharf in Monterey.

According to some configurations, when the user selects the navigationUI element 206B, the next screen of the image narrative 108 is accessedand presented to the user. In response to selection of the navigation UIelement 206B, the GUI 200E may be presented to the user.

FIG. 2E is a screen diagram showing an illustrative GUI 200E thatdisplays the locations that the user and the friend visited. The GUI200E may be generated by the image software product 106, the imageservice 116, shown in FIG. 1, or some other component or computingdevice, and presented on a computing device, such as the computingdevice 102 by an application, such as a Web browser, or the imagesoftware product 106.

As illustrated, the GUI 200E includes a map 210 that indicates thedifferent locations that the user and the friend that are the subjectsof the image narrative 108 have been. The GUI 200E also includes a textelement 204B that provides the current page number and total pages ofthe image narrative 108. In the current example, the GUI 200E displaysthe map 210 that displays stars on the map indicating where the user andthe friend have been on the journey depicted by the image narrative 108.The GUI 200E also shows a representative image from each of thelocations as illustrated by image elements 208C-208E. The map 210 andimages from the different locations may be provided the image manager130, the image service 116, the image analysis service 120, or someother component or device. The GUI 200E also includes a selectable link“View Related Photos” 212A that allows the user to view more imagesrelated to one or more locations. In the current example, the user hasselected element 212A which causes GUI 200F to be presented to the user.

FIG. 2F is a screen diagram showing an illustrative GUI 200F thatdisplays images taken at a selected location. The GUI 200F may begenerated by the image software product 106, the image service 116,shown in FIG. 1, or some other component or computing device, andpresented on a computing device, such as the computing device 102 by anapplication, such as a Web browser, or the image software product 106.

As illustrated, the GUI 200F shows image elements 208F-208I that weretaken at the selected location. In the current example, the images thatare presented were taken at location 1. According to someconfigurations, when the user selects the navigation UI element 206B,the next screen of the image narrative 108 is accessed and presented tothe user. In response to selection of the navigation UI element 206B,the GUI 200G may be presented to the user.

FIG. 2G is a screen diagram showing an illustrative GUI 200G thatdisplays a recent image that includes the user and the friend. The GUI200G may be generated by the image software product 106, the imageservice 116, shown in FIG. 1, or some other component or computingdevice, and presented on a computing device, such as the computingdevice 102 by an application, such as a Web browser, or the imagesoftware product 106.

As illustrated, the GUI 200G shows a recent image in image element 208Jthat includes the user and the friend. The GUI 200G includes navigationUI elements 206A-206B that may be used to navigate between the differentdisplays of the image narrative 108. The GUI 200G also includes a textelement 204B that provides the current page number and total pages ofthe image narrative 108.

In the current example, the GUI 200G also includes a text element 204Fthat provides information about the number of photos that include boththe user and the friend. As illustrated, the text element 204F showsthat 324 images include both the user and the friend.

According to some configurations, when the user selects the navigationUI element 206B, the next screen of the image narrative 108 is accessedand presented to the user. In response to selection of the navigation UIelement 206B, the GUI 200H may be presented to the user.

FIG. 2H is a screen diagram showing an illustrative GUI 200H thatdisplays images from a time of the image narrative 108. The GUI 200H maybe generated by the image software product 106, the image service 116,shown in FIG. 1, or some other component or computing device, andpresented on a computing device, such as the computing device 102 by anapplication, such as a Web browser, or the image software product 106.

As illustrated, the GUI 200H includes navigation UI elements 206A-206Bthat may be used to navigate between the different displays of the imagenarrative 108. The GUI 200H also includes a text element 204B thatprovides the current page number and total pages of the image narrative108. In the current example, the GUI 200H displays a subset of theimages taken during 2013 as indicated by text element 204G. As shown,the GUI 200H shows image elements 208K-208O. The GUI 200H also includesa selectable text element 212A that allows the user to view more imagesfrom the same time period.

According to some configurations, when the user selects the navigationUI element 206B, the next screen of the image narrative 108 is accessedand presented to the user. In response to selection of the navigation UIelement 206B, the GUI 200I may be presented to the user.

FIG. 2I is a screen diagram showing an illustrative GUI 200I thatdisplays images from a time of the image narrative 108. The GUI 200I maybe generated by the image software product 106, the image service 116,shown in FIG. 1, or some other component or computing device, andpresented on a computing device, such as the computing device 102 by anapplication, such as a Web browser, or the image software product 106.

As illustrated, the GUI 200I includes navigation UI elements 206A-206Bthat may be used to navigate between the different displays of the imagenarrative 108. The GUI 200I also includes a text element 204B thatprovides the current page number and total pages of the image narrative108. In the current example, the GUI 200I displays a subset of theimages taken during 2014 as indicated by text element 204G. As shown,the GUI 200I shows image elements 208K-208O. The GUI 200H also includesa selectable text element 212A that allows the user to view more imagesfrom the same time period.

According to some configurations, when the user selects the navigationUI element 206B, the next screen of the image narrative 108 is accessedand presented to the user. In response to selection of the navigation UIelement 206B, the GUI 200J may be presented to the user.

FIG. 2J is a screen diagram showing an illustrative GUI 200J thatdisplays a representative image that includes a friend that is commonlyincluded in images that also contain the user and the friend. The GUI200J may be generated by the image software product 106, the imageservice 116, shown in FIG. 1, or some other component or computingdevice, and presented on a computing device, such as the computingdevice 102 by an application, such as a Web browser, or the imagesoftware product 106.

As illustrated, the GUI 200J shows a recent image in image element 208Jthat includes the user and the friend. The GUI 200G includes navigationUI elements 206A-206B that may be used to navigate between the differentdisplays of the image narrative 108. The GUI 200J also includes a textelement 204B that provides the current page number and total pages ofthe image narrative 108.

In the current example, the GUI 200J shows an image element 208O thatincludes the user, the friend, and the other friend and also includes atext element 204I that provides information about another friend “Joan”that appears in 172 of the photos that include both the user and thefriend. To view more images 112 that include the user, the friend, and“Joan”, the user may select the selectable text element 212A.

According to some configurations, when the user selects the navigationUI element 206B, the next screen of the image narrative 108 is accessedand presented to the user. In response to selection of the navigation UIelement 206B, the GUI 200K may be presented to the user.

FIG. 2K is a screen diagram showing an illustrative GUI 200K thatdisplays a last page of the image narrative for the user and the friend.The GUI 200K may be generated by the image software product 106, theimage service 116, shown in FIG. 1, or some other component or computingdevice, and presented on a computing device, such as the computingdevice 102 by an application, such as a Web browser, or the imagesoftware product 106.

As illustrated, the GUI 200K shows a representative image in imageelement 208P that includes the user and the friend. In some examples,the image may be the last image taken that includes the user and thefriend. The GUI 200K includes navigation UI elements 206A-206B that maybe used to navigate between the different displays of the imagenarrative 108. The GUI 200K also includes a text element 204B thatprovides the current page number and total pages of the image narrative108.

In the current example, the GUI 200K includes a text element 204J thatprovides a brief summary of the images associated with the imagenarrative 108. In the current example, the text element 204J providesthe number of days (“1020”) represented in the image narrative 108, thenumber of photos (“324”) included in the image narrative 108, and thenumber of locations (“3”) visited by the user and the friend. While oneexample image narrative has been illustrated, other image narrativesthat include more or less information and images may be created.

FIGS. 3-6 are flow diagrams showing routines that illustrate aspects ofcreating image narratives for a user. It should be appreciated that thelogical operations described herein with respect to FIGS. 3, 4, 5 and 6,and the other FIGS., may be implemented (1) as a sequence of computerimplemented acts or program modules running on a computing system and/or(2) as interconnected machine logic circuits or circuit modules withinthe computing system.

The implementation of the various components described herein is amatter of choice dependent on the performance and other requirements ofthe computing system. Accordingly, the logical operations describedherein are referred to variously as operations, structural devices,acts, or modules. These operations, structural devices, acts, andmodules may be implemented in software, in firmware, in special purposedigital logic and any combination thereof. It should also be appreciatedthat more or fewer operations may be performed than shown in the FIGS.and described herein. These operations may also be performed inparallel, or in a different order than those described herein.

FIG. 3 is a flow diagram showing a routine 300 illustrating aspects of amechanism disclosed herein for creating and presenting image narratives108. The routine may begin at 310, where stored images 112 associatedwith a user may be accessed. As discussed above, the stored images 112,such as within the data store 122A-122B, or some other image source 124,may be accessed by the image service 116, the image analysis service120, the image software product 106, or some other component or device.In some examples, the images that are accessed may be specified by theuser. For example, the user may provide an indication to select all or aportion of the images. As also discussed above, the images 112 of a usermight also be accessed from a social media site (e.g., Facebook,Twitter) or some other image source 124.

At 320, the tags and the metadata 118A associated with the images 112 ofthe under may be determined. As discussed above, the tags and metadata118A may already be determined for all or a portion of the images 112.In some examples, the image analysis service 120 generates the tags forat least a portion of the images 112 and provides the tags and themetadata 118A to the image service 116 and/or the image analysis service120. In other examples, the image manager 130 may access the tags andthe metadata 118A from the data store 122A or the data store 122B. Moredetails regarding determining the tags and metadata 118A are providedbelow in FIG. 5.

At 330, the image narratives 108 for a user are created. As discussedabove, the image narratives 108 are created by analyzing the tags andmetadata 118A of the image and determining the items of interest to theuser. In some configurations, the tags that are determined to be ofinterest to the user are used to create the image narratives 108. Inother examples, the tags used to generate an image narrative may bereceived from a user. More details about identifying the tags orimportance to the user are provided in FIG. 4.

At 340, the images narratives 108 are presented to the user. Asdiscussed above, the image service 116 or the image software product 106may generate a GUI that includes selectable UI elements that representthe image narratives 108. FIG. 2A provides an example GUI 200A thatincludes UI elements 202A-202K that represent created image narratives108.

At 350, a determination is made as to whether a user has selected one ofthe image narratives 108 for viewing. When a user has selected an imagenarrative 108, the routine 300 proceeds to 360. When a user has notselected an image narrative 108, the routine 300 returns to operation340.

At 360, the images of the selected image narrative are presented to theuser. As discussed above, the image narrative 108 may be presented on acomputing device 102 or on some other display. In some examples, theimage narrative 108 includes information and images 112 spread out overmultiple pages and displays of a GUI. The routine 300 may then proceedto an end operation. Alternately, the routine 300 might proceed back torepeat some or all of the processing operations described above. Forexample, from 350, routine 300 may proceed back to 310.

FIG. 4 is a flow diagram showing a routine 400 illustrating aspects of amechanism disclosed herein for identifying tags of importance or thatare interesting to the user. The routine 400 may begin at 410, wherefrequently occurring tags are determined. As discussed above, tags thatare frequently occurring within the images 112 may provide an indicationthat the user is interested in these particular items. For example,frequently occurring tags may indicate individuals that are important tothe user, places that the user likes to visit, pets of the user, eventsthat the user has attended, and activities that the user participatesin. In other examples, the user may provide the tags that are ofinterest to the user. As discussed, these tags provided by the user maybe used by the image manager 130 to generate an image narrative.

At 415, a decision is made as to whether to identify images within atime period. As discussed above, an image narrative may be associatedwith a particular time period (e.g., the last month, six months, twoyears, or a time period associated with a particular event or activity.In some configurations, a user may specify a time period. In otherexamples, the image manager 130, or some other computing device orcomponent, may identify a time period. When images are to be associatedwith a particular time period, the routine 400 moves to 420. When imagesare not to be associated with a particular time period, the routine 400moves to 425.

At 420, images within a particular time period are selected. Asdiscussed above, the image manager 130 may identify the images that areassociated with a particular time period using the tags associated withthe images 112.

At 425, a decision is made as to whether to identify images associatedwith an event. As discussed above, an image narrative may be associatedwith a particular event. In some configurations, a user may specify anevent, or events, in which they are interested. For example, a user maysupply a tag for an event. In other examples, the user may perform asearch for an event. In other examples, the image manager 130, or someother computing device or component, may identify events of interest tothe user. When images are to be associated with a particular event, theroutine 400 moves to 430. When images are not to be associated with aparticular event, the routine 400 moves to 435.

At 430, images associated with an event are selected. As discussedabove, the image manager 130 may identify the images that are associatedwith a particular event using the tags associated with the images 112.

At 435, a decision is made as to whether to identify images associatedwith an activity. As discussed above, an image narrative may beassociated with a particular activity. In some configurations, a usermay specify an activity, or activities, in which they are interested.For example, a user may supply a tag for an activity. In other examples,the user may perform a search for an activity. In other examples, theimage manager 130, or some other computing device or component, mayidentify activities of interest to the user. When images are to beassociated with a particular event, the routine 400 moves to 440. Whenimages are not to be associated with a particular activity, the routine400 moves to 445.

As can be seen from the above discussion, the image manager 130 mayidentify an association between tags of images based on variouscriteria. For example, the image service 116 may identify that aparticular individual is frequently shown in the images 112 and thatwithin those images a particular activity is occurring. In someconfigurations, the image manager 130 determines for tags that arefrequently occurring (e.g., the top predetermined number of tags) anddetermines other tags that occur within the same image. According tosome examples, the tags that occur in common with the frequentlyoccurring tags may be associated with another tag if that tag is alsofrequently occurring within the same images 112 within some specifiedtime.

At 445, the images 112 to associate with an image narrative beingcreated are identified. As discussed above, the image manager 130identifies the images to associate with the image narrative 108 based onthe image narrative being created and the tags being utilized. Forexample, for the image narrative 108 illustrated in FIG. 3, the imagesto associate with the image narrative 108 include images that includeboth the user and the identified friend. More details are provided belowwith regard to FIG. 6.

At 450, the identification of the images 112 associated with the imagenarrative 108 are stored. As discussed above, the images 112 that areassociated with the image narrative 108 may be stored within the datastore, such as data store 106 or data store 112B. In some examples, theidentification of the images is stored within a file that includes areference to the location of the images that are associated with theimage narrative 108. The routine 400 may then proceed to an endoperation. Alternately, the routine 400 might proceed back to repeatsome or all of the processing operations described above. For example,from 450, routine 400 may proceed back to 410.

FIG. 5 is a flow diagram showing a routine 500 illustrating aspects of amechanism disclosed herein for determining tags and metadata 118A forimages 112. The routine 500 may begin at 510, where images are retrievedfrom storage locations. As discussed above, the images might be obtainedfrom a variety of different locations. For example, the images may beobtained from a service provider network 104, a computing device, suchas a computing device 102, or from some other image source, such as asocial networking site or some other data store.

At 520, tags and metadata 118A identified from the images. As discussedabove, tags and metadata 118A may be included with the images and/ordetermine from the images. For example, the image analysis service 120may determine the tags for the image and store the tag information withthe images. In some configurations, the image service 116 or the imageanalysis service may normalize the tags of the images 112. For example,“dusk” tags and “twilight” tags within the images 112 may be changed to“sunset.” As an additional example, tags may be generated based onresults of scene understanding and/or facial recognition that areperformed on each image.

At 530, tags may be generated for the images 112 using additionalsources. For example, while some images 112 may have tags alreadyapplied, the image analysis service 120, may further analyze the imageto determine additional tags. For example, the image analysis service120 may generate a location tag using location metadata associated withthe image. For instance, GPS coordinates may be used to create thelocation tag (e.g., “Santa Monica Beach, Calif.” or “O'Hare Airport,Chicago”).

As another example, event tags might be generated by the image analysisservice 120 using the metadata. For instance, the date when the imagewas taken may be used to determine that the image was taken on aholiday, on a birthday of a recognized individual, on a graduation data,or the like. In some example, a correlation between a date associatedwith an image 112 and an event, an external data source may be accessed.For instance, a social networking site for one or more users may beaccessed to assist in determining whether the date is associated with anevent of importance or interest to the user. As another examples, one ormore external data sources may be queried (e.g., WIKIPEDIA, GOOGLE,BING, and the like) to assist in determining whether the date isassociated with an event of importance or interest to the user.

As yet another example, the image creation time for an image may be usedby the image service 116 or the image analysis service 120 to assist ingenerating tags for an image. For example, when the scene type isdetermined to be beach and the creation time is near the time of thesunset for the location, a tag may be a dusk scene or a sunset scene.

At 540, the images may be associated with the location. As discussedabove, an image may include a location of where the image was taken.This information may be used by the end image analysis service 120, orthe image service 116 to identify location of where the image 112 wastaken. The location information may be used to associate the image witha particular location on a map. The routine 500 may then proceed to anend operation. Alternately, the routine 500 might proceed back to repeatsome or all of the processing operations described above. For example,from 540, routine 500 may proceed back to 510.

FIG. 6 is a flow diagram showing a routine 600 illustrating aspects of amechanism disclosed herein for determining a combination of tags toinclude in an image narrative. The routine 600 may begin at 610, where acombination of tags to include in an image narrative 108 is determined.As discussed above, some image narratives 108 may be associated withmore than a single tag. For example, the image narrative 108 illustratedin FIG. 2 includes the user's tag as well as a friend's tag. The imagenarrative 108 may also be associated with a particular time, event,activity, or some other combination.

At 620, the images that contain the combination of tags are identified.As discussed above, the images 112 that contain the tags of interest maybe associated with the image narrative being created. In some examples,all of the images 112 that contain the combination of tags areidentified and a reference to the images 112 are stored by the imagemanager 130 within the data store 122A or the data store 122B. In otherexamples, the images that contain the combination of tags that exceed aspecified confidence level are selected for the image narrative. Asdiscussed above, the confidence level associated with a tag can indicatehow likely that tag is correct.

At 630, a determination is made as to whether the tag or tags of animage that can be associated with a particular image narrative 108 areabove a specified threshold. The threshold may be predetermined by auser and/or programmatically determined by the image manager 130 basedon how many images 112 can be associated with the image narrative 108.For example, the threshold may be set higher when more images areavailable and lower when fewer images are available. In some examples,the threshold may be set such that the images 112 selected for the imagenarrative 108 include the combination of tags having the highestassociated confidence. The confidence score can be based on all or aportion of the factors used to determine the image narratives. Forexample, the confidence score could be a confidence score for one tagthat identifies a confidence that the tag is correct, or a confidencescore for a combination of tags that identifies a confidence that thecombination of tags are correct. For instance, a confidence score thatan individual is included within one or more images may be high, but theconfidence for the individual is attending a particular event or is at aparticular location may be low. Therefore, the image might be determinedto be part of an image narrative that includes the individual as a“friend”, but may not be determined to be part of an image narrativethat includes the particular event or particular location. In someexamples, the confidence score may be used during operation 610 toidentify the tags that frequently occur in combination which can changethe presented image narratives and what images are associated with theimage narratives. When the confidence is above the threshold, theroutine 600 moves to 650 where the image is selected. When theconfidence is not above the threshold, the routine 600 moves to 640where a next image 112 is accessed from the images that may beassociated with the image narrative.

At 660, a determination is made as to whether there are more images thatcan be associated with a particular image narrative 108. When there aremore images, the routine 600 moves to 640 where the next image isaccessed. When there are not more images, the routine 600 moves to 670.

At 670, the identification of the images 112 are associated with theimage narrative 108 being created are stored within a data store. Asdiscussed above, the image manager 130 or some other component or devicemay create references to the images 112 that are associated with animage narrative 108. An image 112 may be associated with more than oneimage narrative 108. In some configurations, the image manager 130create a table within a database that includes an identifier for theimages 112 that are associated with an image narrative 108 and the otherinformation that might be presented within the image narrative.

FIG. 7 and the following description are intended to provide a brief,general description of a suitable computing environment in which theexamples described herein may be implemented. In particular, FIG. 7 is asystem and network diagram that shows an illustrative operatingenvironment that includes a service provider network 104. As discussedabove, the service provider network 104 can provide virtual machineinstances and computing resources on a permanent or an as-needed basis.

The computing resources provided by the service provider network 104 mayinclude various types of resources, such as data processing resources,data storage resources, networking resources, data communicationresources and the like. Each type of computing resource may be availablein a number of specific configurations. For example, and as will bedescribed in greater detail below, data processing resources may beavailable as virtual machine instances in a number of differentconfigurations. The virtual machine instances may be configured toexecute applications, including Web servers, application servers, mediaservers, database servers and other types of applications. Data storageresources may include file storage devices, block storage devices andthe like. Each type or configuration of a virtual machine instance of acomputing resource may be available in different sizes, such as largeresources, consisting of many processors, large amounts of memory,and/or large storage capacity, and small resources consisting of fewerprocessors, smaller amounts of memory and/or smaller storage capacity.

The computing resources provided by the service provider network 104 areenabled in one implementation by one or more data centers 704A-704N(which may be referred to herein singularly as “a data center 704” orcollectively as “the data centers 704”). The data centers 704 arefacilities utilized to house and operate computer systems and associatedcomponents. The data centers 704 typically include redundant and backuppower, communications, cooling and security systems. The data centers704 might also be located in geographically disparate locations. Oneillustrative configuration for a data center 704 that implements some orall of the concepts and technologies disclosed herein for annotatingresources in the service provider network 104 will be described belowwith regard to FIG. 8.

The users and customers of the service provider network 104 may accessthe computing resources provided by the data centers 704 over a suitabledata communications network, such as a Wide Area Network (“WAN”), asillustrated by network 730. Although a WAN might be used, it should beappreciated that a local-area network (“LAN”), the Internet, or anyother networking topology known in the art that connects the datacenters 704 to the computing devices 102 may be utilized. It should alsobe appreciated that combinations of such networks might also beutilized.

FIG. 8 is a computing system diagram that illustrates one configurationfor a data center 704 that implements aspects of a service providernetwork 104, including some or all of the concepts and technologiesdisclosed herein for intelligently selecting images to create imagenarratives. The example data center 704 shown in FIG. 8 includes severalserver computers 802A-802F (which may be referred to herein singularlyas “a server computer 802” or in the plural as “the server computers802”) for providing computing resources. The server computers 802 may bestandard tower or rack-mount server computers configured appropriatelyfor providing the computing resources described herein. According to anexample, the server computers 802 are configured to execute the softwareproducts as described above.

In one example, some of the computing resources 804 are virtual machineinstances. As known in the art, a virtual machine instance is aninstance of a software implementation of a machine (i.e. a computer)that executes programs like a physical machine. Each of the servercomputers 802 may be configured to execute an instance manager (notshown) capable of instantiating and managing computing resources andinstances of computing resources. In the case of virtual machineinstances, for example, the instance manager might be a hypervisor oranother type of program configured to enable the execution of multiplevirtual machine instances on a single server computer 802, for example.

It should be appreciated that although the examples disclosed herein aredescribed primarily in the context of virtual machine instances, othertypes of computing resources can be utilized with the concepts andtechnologies disclosed herein. For instance, the technologies disclosedherein might be utilized with hardware resources, data storageresources, data communications resources, networking resources, databaseresources and with other types of computing resources.

The data center 704 shown in FIG. 8 also includes a server computer 802Freserved for executing software components for managing the operation ofthe data center 704, the server computers 802, virtual machineinstances, and other resources within the service provider network 104.The server computer 802F might also execute the image manager 130.Details regarding the operation of each of these components has beenprovided above. In this regard, it should be appreciated that whilethese components are illustrated as executing within the serviceprovider network 104, computing systems that are external to the serviceprovider network 104 might also be utilized to execute some or all ofthese components. Other configurations might also be utilized.

In the example data center 704 shown in FIG. 8, an appropriate localarea network (“LAN”) 805 is utilized to interconnect the servercomputers 802A-802E and the server computer 802F. The LAN 805 is alsoconnected to the network 730 illustrated in FIG. 7. It should beappreciated that the configuration and network topology illustrated inFIGS. 7 and 8 has been greatly simplified and that many more computingsystems, networks and networking devices may be utilized to interconnectthe various computing systems disclosed herein. Appropriate loadbalancing devices or software modules might also be utilized forbalancing a load between each of the data centers 704A-704N, betweeneach of the server computers 802A-802F in each data center 704 andbetween virtual machine instances and other types of computing resourcesprovided by the service provider network 104.

It should be appreciated that the data center 704 described in FIG. 8 ismerely illustrative and that other implementations might also beutilized. Additionally, it should be appreciated that the functionalityprovided by these components might be implemented in software, hardware,or a combination of software and hardware. Other implementations shouldbe apparent to those skilled in the art.

FIG. 9 shows an example computer architecture for a computer 900 capableof executing program components for intelligently selecting images toassociate with an image narration in the manner described above. Thecomputer architecture shown in FIG. 9 illustrates a conventional servercomputer, workstation, desktop computer, laptop, tablet, networkappliance, personal digital assistant (“PDA”), e-reader, digitalcellular phone, or other computing device, and may be utilized toexecute any of the software components presented herein. For example,the computer architecture shown in FIG. 9 may be utilized to executesoftware components for performing operations as described above. Thecomputer architecture shown in FIG. 9 might also be utilized toimplement a computing device 102 or any other of the computing systemsdescribed herein.

The computer 900 includes a baseboard 902, or “motherboard,” which is aprinted circuit board to which a multitude of components or devices maybe connected by way of a system bus or other electrical communicationpaths. In one illustrative example, one or more central processing units(“CPUs”) 904 operate in conjunction with a chipset 906. The CPUs 904 maybe standard programmable processors that perform arithmetic and logicaloperations necessary for the operation of the computer 900.

The CPUs 904 perform operations by transitioning from one discrete,physical state to the next through the manipulation of switchingelements that differentiate between and change these states. Switchingelements may generally include electronic circuits that maintain one oftwo binary states, such as flip-flops and electronic circuits thatprovide an output state based on the logical combination of the statesof one or more other switching elements, such as logic gates. Thesebasic switching elements may be combined to create more complex logiccircuits, including registers, adders-subtractors, arithmetic logicunits, floating-point units and the like.

The chipset 906 provides an interface between the CPUs 904 and theremainder of the components and devices on the baseboard 902. Thechipset 906 may provide an interface to a RAM 908, used as the mainmemory in the computer 900. The chipset 906 may further provide aninterface to a computer-readable storage medium such as a read-onlymemory (“ROM”) 910 or non-volatile RAM (“NVRAM”) for storing basicroutines that help to startup the computer 900 and to transferinformation between the various components and devices. The ROM 910 orNVRAM may also store other software components necessary for theoperation of the computer 900 in accordance with the examples describedherein.

The computer 900 may operate in a networked environment using logicalconnections to remote computing devices and computer systems through anetwork, such as the local area network 920. The chipset 906 may includefunctionality for providing network connectivity through a networkinterface controller (“NIC”) 912, such as a gigabit Ethernet adapter.The NIC 912 is capable of connecting the computer 900 to other computingdevices over the local area network 920. It should be appreciated thatmultiple NICs 912 may be present in the computer 900, connecting thecomputer to other types of networks and remote computer systems.

The computer 900 may be connected to a mass storage device 918 thatprovides non-volatile storage for the computer. The mass storage device918 may store system programs, application programs, other programmodules and data, which have been described in greater detail herein.The mass storage device 918 may be connected to the computer 900 througha storage controller 914 connected to the chipset 906. The mass storagedevice 918 may consist of one or more physical storage units. Thestorage controller 914 may interface with the physical storage unitsthrough a serial attached SCSI (“SAS”) interface, a serial advancedtechnology attachment (“SATA”) interface, a fiber channel (“FC”)interface, or other type of interface for physically connecting andtransferring data between computers and physical storage units.

The computer 900 may store data on the mass storage device 918 bytransforming the physical state of the physical storage units to reflectthe information being stored. The specific transformation of physicalstate may depend on various factors, in different implementations ofthis description. Examples of such factors may include, but are notlimited to, the technology used to implement the physical storage units,whether the mass storage device 918 is characterized as primary orsecondary storage and the like.

For example, the computer 900 may store information to the mass storagedevice 918 by issuing instructions through the storage controller 914 toalter the magnetic characteristics of a particular location within amagnetic disk drive unit, the reflective or refractive characteristicsof a particular location in an optical storage unit, or the electricalcharacteristics of a particular capacitor, transistor, or other discretecomponent in a solid-state storage unit. Other transformations ofphysical media are possible without departing from the scope and spiritof the present description, with the foregoing examples provided only tofacilitate this description. The computer 900 may further readinformation from the mass storage device 918 by detecting the physicalstates or characteristics of one or more particular locations within thephysical storage units.

In addition to the mass storage device 918 described above, the computer900 may have access to other computer-readable storage media to storeand retrieve information, such as program modules, data structures, orother data. It should be appreciated by those skilled in the art thatcomputer-readable storage media is any available media that provides forthe non-transitory storage of data and that may be accessed by thecomputer 900.

By way of example, and not limitation, computer-readable storage mediamay include volatile and non-volatile, removable and non-removable mediaimplemented in any method or technology. Computer-readable storage mediaincludes, but is not limited to, RAM, ROM, erasable programmable ROM(“EPROM”), electrically-erasable programmable ROM (“EEPROM”), flashmemory or other solid-state memory technology, compact disc ROM(“CD-ROM”), digital versatile disk (“DVD”), high definition DVD(“HD-DVD”), BLU-RAY, or other optical storage, magnetic cassettes,magnetic tape, magnetic disk storage or other magnetic storage devices,or any other medium that can be used to store the desired information ina non-transitory fashion.

The mass storage device 918 may store an operating system 930 utilizedto control the operation of the computer 900. According to one example,the operating system comprises the LINUX operating system. According toanother example, the operating system comprises the WINDOWS® SERVERoperating system from MICROSOFT Corporation. According to furtherexamples, the operating system may comprise the UNIX operating system.It should be appreciated that other operating systems may also beutilized. The mass storage device 918 may store other system orapplication programs and data utilized by the computer 900, such ascomponents that include the image manager 130, the image narratives 108,the software product 106 and/or any of the other software components anddata described above. The mass storage device 918 might also store otherprograms and data not specifically identified herein.

In one example, the mass storage device 918 or other computer-readablestorage media is encoded with computer-executable instructions that,when loaded into the computer 900, transform the computer into aspecial-purpose computer capable of implementing the examples describedherein. These computer-executable instructions transform the computer900 by specifying how the CPUs 904 transition between states, asdescribed above. According to one example, the computer 900 has accessto computer-readable storage media storing computer-executableinstructions which, when executed by the computer 900, perform thevarious routines described above with regard to FIGS. 4-6. The computer900 might also include computer-readable storage media for performingany of the other computer-implemented operations described herein.

The computer 900 may also include one or more input/output controllers916 for receiving and processing input from a number of input devices,such as a keyboard, a mouse, a touchpad, a touch screen, an electronicstylus, or other type of input device. Similarly, the input/outputcontroller 916 may provide output to a display, such as a computermonitor, a flat-panel display, a digital projector, a printer, aplotter, or other type of output device. It will be appreciated that thecomputer 900 may not include all of the components shown in FIG. 9, mayinclude other components that are not explicitly shown in FIG. 9, or mayutilize an architecture completely different than that shown in FIG. 9.

Based on the foregoing, it should be appreciated that technologies forintelligent selection of images to create narratives have been presentedherein. Moreover, although the subject matter presented herein has beendescribed in language specific to computer structural features,methodological acts and computer readable media, it is to be understoodthat the invention defined in the appended claims is not necessarilylimited to the specific features, acts, or media described herein.Rather, the specific features, acts and media are disclosed as exampleforms of implementing the claims.

The subject matter described above is provided by way of illustrationonly and should not be construed as limiting. Furthermore, the claimedsubject matter is not limited to implementations that solve any or alldisadvantages noted in any part of this disclosure. Variousmodifications and changes may be made to the subject matter describedherein without following the example examples and applicationsillustrated and described, and without departing from the true spiritand scope of the present invention, which is set forth in the followingclaims.

What is claimed is:
 1. A computer-implemented method, comprising:causing first data to be displayed within a first graphical userinterface on a computing device that includes one or more first userinterface elements, wherein the one or more first user interfaceelements include at least one of one or more first selectable userinterface elements that indicate one or more other users to include inan image narrative, one or more second selectable user interfaceelements that indicate one or more locations visited to include in theimage narrative, or one or more third selectable user interface elementsthat indicate one or more time periods to include in the imagenarrative; receiving an indication of a selection of a user interfaceelement from the one or more first user interface elements; accessing,from one or more data stores, images associated with one or more users;identifying a portion of the images to associate with the imagenarrative based, at least in part, on the selection of the userinterface element and on one or more of a number of occurrences of akeyword associated with the images, a specified time period, anactivity, an event, or another user identified by one or more ofmetadata associated with the images or an analysis of the images; andcausing second data to be displayed within a second graphical userinterface that includes one or more second user interface elementsassociated with the image narrative, wherein the one or more second userinterface elements include at least two of one or more fourth selectableuser interface elements that identify at least one of the one or moreother users included in the image narrative, one or more fifthselectable user interface elements that identify at least one of the oneor more locations visited in the image narrative, or one or more sixthselectable user interface elements that indicate at least one of a dateor a time associated with the image narrative.
 2. Thecomputer-implemented method of claim 1, wherein accessing the imagescomprises accessing one or more social networking sites associated withat least one of the one or more users.
 3. The computer-implementedmethod of claim 1, further comprising: transmitting, to the computingdevice, an instruction to provide for display of the image narrative. 4.The computer-implemented method of claim 1, wherein identifying theportion of the images to associate with the image narrative comprisesidentifying one or more of: a frequently occurring scene; a frequentlyoccurring face; or a frequently occurring activity.
 5. Thecomputer-implemented method of claim 1, further comprising: obtainingtags associated with the images, the tags identifying one or more offaces within the images, or scenes within the images; and whereinidentifying the portion of the images includes determining a number ofoccurrences of individual ones of the tags.
 6. The computer-implementedmethod of claim 5, further comprising: identifying one or more of thetags modified by a user associated with the computing device; andwherein identifying the portion of the images is based, at least inpart, on the one or more tags modified by the user.
 7. A system,comprising: one or more data stores operative to store images associatedwith one or more users; and one or more computing devices configured toperform operations to: receive an indication of a selection of an imagenarrative, wherein the image narrative includes two or more of one ormore first images of one or more other users, one or more second imagesof one or more locations visited, or one or more third images associatedwith one or more time periods; access images from the one or more datastores; identify a portion of the images to associate with the imagenarrative based, at least in part, on the selection of the imagenarrative and one or more of a number of occurrences of a keywordassociated with the images, a specified time period, an activity, or anevent, identified by one or more of metadata associated with the imagesor an analysis of the images; and provide data for display on acomputing device within a graphical user interface that includes one ormore user interface elements associated with the image narrative,wherein the one or more user interface elements include at least two ofone or more first user interface elements that identify at least one ofthe one or more other users included in the image narrative, one or moresecond user interface elements that identify at least one of the one ormore locations visited in the image narrative, or one or more third userinterface elements that indicate at least one of a date or a timeassociated with the image narrative.
 8. The system of claim 7, whereinto identify the portion of the images is based, at least in part, adetermination that a user and a second user are depicted together withinat least some of the images.
 9. The system of claim 7, wherein the oneor more computing devices are configured to perform further operationsto: obtain tags associated with the images, the tags describingindividuals identified, scenes identified, and locations identified;identify, from the tags, first images from the images associated withthe one or more users that depict one or more of: an activity that theone or more users participate in; or an event the one or more usersattended; and associate the first images with the image narrative. 10.The system of claim 9, wherein to identify the first images, comprisesselecting the first images based at least in part on a confidence scorethat a first tag exceeds a first confidence level and a second tagexceeds a second confidence level.
 11. The system of claim 9, whereinthe one or more computing devices are configured to perform furtheroperations to access, from one or more other image sources, secondimages associated with the one or more users, identify second tags fromimage data of the second images, and aggregate the second tags with thefirst tags.
 12. The system of claim 7, wherein the one or more computingdevices are configured to perform further operations to identify tagsmodified by a user and wherein to identify the portion of the images isbased, at least in part, on the tags modified by the user.
 13. Thesystem of claim 7, wherein the image narrative includes images thatrelate to a connection between a first user and a second user over aperiod of time.
 14. The system of claim 7, wherein to identify theportion of the images includes to identify individuals, from theanalysis of the images, that have traveled together.
 15. The system ofclaim 7, wherein the one or more computing devices are configured toperform further operations to: receive an indication of a selection of auser interface element associated with the image narrative; and provide,to the computing device, an instruction to provide a display of theimage narrative.
 16. A non-transitory computer-readable storage mediumhaving computer-executable instructions stored thereupon which, whenexecuted by a computer, cause the computer to: transmit first data fordisplay on a computing device within a first graphical user interfacethat includes one or more first user interface elements, wherein the oneor more first user interface elements include at least one of one ormore first selectable user interface elements that indicate one or moreother users to include in an image narrative, one or more secondselectable user interface elements that indicate one or more locationsvisited to include in the image narrative, or one or more thirdselectable user interface elements that indicate at least one of a dateor a time to include in the image narrative; receive an indication of aselection of a user interface element from the one or more first userinterface elements; access, from one or more memories, images associatedwith one or more users; identify a portion of the images to associatewith an image narrative based, at least in part, on the selection of theuser interface element and one or more of a number of occurrences of akeyword associated with the images, a specified time period, anactivity, an event, or another user identified by one or more ofmetadata associated with the images or an analysis of the images; andtransmit second data for display on the computing device within a secondgraphical user interface that includes one or more second user interfaceelements associated with the image narrative, wherein the one or moresecond user interface elements include at least one of one or morefourth selectable user interface elements that identify at least one ofthe one or more other users included in the image narrative, one or morefifth selectable user interface elements that identify locations visitedin the image narrative, or one or more sixth selectable user interfaceelements that indicate the at least one of the date or the timeassociated with the image narrative.
 17. The non-transitorycomputer-readable storage medium of claim 16, further comprising one ormore additional computer-executable instructions that further cause thecomputer to: identify tags that are associated with the images, whereinindividual ones of the tags identify at least one or more objects withinthe images, one or more individuals within the images, or one or morescenes within the images; determine frequencies of the tags, wherein thefrequencies include a first frequency of a first tag, a second frequencyof a second tag, and a third frequency of a third tag; identifycandidate images based, at least in part, on the frequencies of thetags; and associate at least portion of the candidate images with theimage narrative.
 18. The non-transitory computer-readable storage mediumof claim 17, wherein to identify the portion of the images includes toidentify individuals from the analysis of the images that have one ormore travelled together or attended activities together.
 19. Thenon-transitory computer-readable storage medium of claim 17, furthercomprising one or more additional computer-executable instructions thatfurther cause the computer to: receive an indication of a selection of auser interface element associated with the image narrative; and provide,to the computing device, an instruction to provide a display of theimage narrative.
 20. The non-transitory computer-readable storage mediumof claim 17, further comprising one or more additionalcomputer-executable instructions that further cause the computer toidentify tags modified by a user, and wherein identify the portion ofthe images is based, at least in part, on the tags modified by the user.